Prezentacja programu PowerPoint€¦ · 11 Perhaps we can apply hydrodynamics to high-multiplicity...
Transcript of Prezentacja programu PowerPoint€¦ · 11 Perhaps we can apply hydrodynamics to high-multiplicity...
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Heavy Ions
Adam Bzdak
AGH University of Science and Technology, Kraków
Collectivity in small systems QCD critical point
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Discovery at the LHC proton-proton, 𝑠 = 7000 GeV proton-lead, 𝑠 = 5020 GeV
𝜋+
𝑝 𝑝, 𝐴
𝜋+
Particles with large rapidity separation prefer similar azimuthal angles (collimation)! Back-to-back contribution also present (jets, obvious)
∆𝜑 ~ 0
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The effect is larger in p+Pb than p+p collisions
CMS Coll., JHEP 1009 (2010) 091; PLB 718 (2013) 795 ALICE Coll., PLB 719 (2013) 29 ATLAS Coll., PRL 110, 182302 (2013) PHENIX Coll., PRL 111, 212301 (2013), d+Au at 200 GeV
at the same multiplicity in 𝜂 < 2.4 and 𝑝𝑡 > 0.4 GeV
Experimental data (sample)
The more particles the stronger the effect not shown here
𝐶2(∆𝜙)
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𝜑 azimuthal angle
𝑑𝑁
𝑑𝜑 ~ 1 + 2 𝒗𝟐 cos 2𝜑 − 2Ψ𝑅𝑃 +⋯
transverse plain of a heavy-ion collision
J.-Y. Ollitrault, PRD 46 (1992) 229 Elliptic flow
𝑣22 ~ 𝜖2
2 Hydrodynamics 𝜖2 ≈ 0 𝜖2 ≈ 1
Ψ𝑅𝑃 = 0
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𝜆
𝐿≪ 1
𝜆 − mean free path 𝐿 − characteristic length scale
𝜆
𝐿 ~ 1
described by fluid dynamics described by statistical mechanics
“flow” is mostly isotropic flow is anisotropic 𝑣2 = 0
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Let us consider an extreme case, particles only at 0 and 𝜋
There are obvious two-particle correlations
𝜑1 − 𝜑2 = 0 or 𝜑1 −𝜑2 = 𝜋
𝜑
2-particle correlation function is peaked at 0 and 𝜋 and has minimum at 𝜋/2. For real 𝑣2 it is cos (2[𝜑1 − 𝜑2])
after integrating over Ψ𝑅𝑃
Ψ𝑅𝑃 = 0
There are also multi-particle correlations
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(𝑣2{2})2 = 𝑒𝑖2(𝜑1−𝜑2)
= 𝑣22 + 𝑐2
(𝑣2{4})4 = − 𝑒𝑖2 𝜑1+𝜑2−𝜑3−𝜑4 + 2 𝑒𝑖2 𝜑1−𝜑2
2
= − 𝑣24 + 2 𝑣2
2 2 + 𝑐4
Multi-particle correlations
if in each event 𝑣2 = 𝑣2: 𝑣2 2 = 𝑣2
𝑣2 𝑚 = 𝑣2
N.Borghini, P.M.Dinh, J.-Y.Ollitrault, PRC 63 (2001) 054906
𝑐𝑚 is non-flow
here 𝑐𝑚 = 0
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p+A, Glauber MC
AB, P. Bozek, L. McLerran, NPA 927 (2014) 15 L. Yan, J.-Y. Ollitrault, PRL 112 (2014) 082301 AB, V. Skokov, NPA 943 (2015) 1
for many other implementations it looks similar
𝜖2 ≈ 0
𝜖2 ≈ 1
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CMS data
𝜐2 2 > 𝑣2 4 ≈ 𝑣2 6 ≈ 𝑣2 8
CMS Coll., PRL 115, 012301 (2015)
collectivity beyond reasonable doubt
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Sometimes system looks like a triangle
𝐶2 ∆𝜑 ~ 𝒗𝟑𝟐 cos (3∆𝜑)
B. Alver, G. Roland, PRC 81 (2010) 054905
𝑏
𝜎𝑖𝑛 𝑏 ~ 𝑒−𝑏2/𝛾
inelastic cross-section
∆𝜑 = 𝜑1 −𝜑2
Triangular flow
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Perhaps we can apply hydrodynamics to high-multiplicity pp and pA collisions. The interaction region is small but dense.
P.Bozek, PRC 85 (2012) 014911; P.Bozek, W.Broniowski, G.Torrieri, PRL 111 (2013) 172303 AB, B.Schenke, P.Tribedy, R.Venugopalan, PRC 87 (2013) 064906 E.Shuryak, I.Zahed, PRC 88, 044915 (2013) K.Werner, B.Guiot, Iu.Karpenko, T.Pierog, PRC 89, 064903 (2014) G.Qin, B.Müller, PRC 89, 044902 (2014)
𝑝𝑝 𝑝𝐴
Standard hydro can fit data for p+Pb
? ?
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12 AB, G.L. Ma, PRL 113 (2014) 252301 G.L. Ma, AB, PLB 739 (2014) 209
AMPT model (elastic scatterings of partons)
𝝈 = 𝟏. 𝟓 − 𝟑 mb
Z.W. Lin, C.M. Ko, B.A. Li, B. Zhang, S. Pal, PRC 72 (2005) 064901
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PHENIX: p+Au, d+Au, He3+Au
p+Au
d+Au
He3+Au
Clear response to global geometry.
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QCD critical point
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Why heavy-ion collisions? Z. Fodor, S.D. Katz JHEP 0203 (2002) 014 critical point
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In general phase transition influence fluctuations
Suppose that 𝑛𝑞2 − 𝑛𝑞
2= 𝑛𝑞 𝑛𝑞 = 3𝑛𝑝
9 𝑛𝑝2 − 9 𝑛𝑝
2= 3 𝑛𝑝 𝑛𝑝
2 − 𝑛𝑝2=1
3𝑛𝑝
rapidity
S. Jeon, V. Koch PRL 85 (2000) 2076
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Critical opalescence
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We study cumulants of 𝑃(𝑛), 𝑛 is baryon/charge number
𝑐2 = 𝑛 − 𝑛2 = 𝜎2
𝑐3 = 𝑛 − 𝑛3 = 𝑆𝜎3
𝑐4 = 𝑛 − 𝑛4 − 3𝑐2
2 = 𝜅𝜎4
𝜅𝜎2 = 𝑐4/𝑐2
𝑠𝜎 = 𝑐3/𝑐2
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Polyakov-loop-extended-Quark-Meson-Model (PQM)
V.Skokov, private communication
𝑐4/𝑐2
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STAR data
𝜅𝜎2 = 𝑐4/𝑐2 𝑠𝜎 = 𝑐3/𝑐2
STAR, arXiv:1503.02558
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Problems:
- Limited detector efficiency
- Neutrons are not measured
- Baryon stopping
- Very short time
- Non critical contribution (global baryon conservation, volume
fluctuation, …)
- New observables?
M.Kitazawa, M.Asakawa PRC 86 (2012) 024904; PRC 86 (2012) 069902 AB, V.Koch, PRC 86 (2012) 044904; PRC 91 (2015) 2, 027901 AB, V.Koch, V.Skokov, PRC 87 (2013) 1, 014901 V. Skokov, B. Friman, K. Redlich, PRC 88 (2013) 034911
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Conclusions Collectivity in p+p and p+A collisions Clear response to global geometry Promising studies of QCD critical point
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Backup
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For two particles
𝜑 Ψ𝑅𝑃 = 0
𝜌2 𝜑1, 𝜑2; Ψ𝑅𝑃 = 𝜌 𝜑1; Ψ𝑅𝑃 ∗ 𝜌 𝜑2; Ψ𝑅𝑃
1 + 2𝒗𝟐 cos 2𝜑1 − 2Ψ𝑅𝑃 +⋯
when integrated over Ψ𝑅𝑃 → 1 + 2𝒗𝟐𝟐cos (2𝜑1 − 2𝜑2)
1 + 2𝒗𝟐 cos 2𝜑2 − 2Ψ𝑅𝑃 +⋯
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𝑑Ψ𝑅𝑃 𝜌2 𝜑1, 𝜑2; Ψ𝑅𝑃 ~ 1 + 2𝑣22cos (2𝜑1 − 2𝜑2)
𝑑Ψ𝑅𝑃 𝜌4 𝜑1, 𝜑2, 𝜑3, 𝜑4; Ψ𝑅𝑃 ~
1 + 2𝑣22 cos 2𝜑1 − 2𝜑2 +⋯
+ 2𝑣2
4 cos 2𝜑1 + 2𝜑2 − 2𝜑3 − 2𝜑4 +⋯
Particles are correlated through the reaction plane
𝑓4 𝑝1, 𝑝2, 𝑝3, 𝑝4; Ψ𝑅𝑃 = 𝑓 𝑝1; Ψ𝑅𝑃 ∗ 𝑓 𝑝2; Ψ𝑅𝑃 ∗ 𝑓 𝑝3; Ψ𝑅𝑃 ∗ 𝑓 𝑝4; Ψ𝑅𝑃
Strengths of 2-, 4-, …, N-particle correlations are the same!
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In general:
𝐶2 ∆𝜑 ~ 𝑣𝑛2
𝑛=1
cos (𝑛∆𝜑)
2760 GeV
C. Gale et al., PRL 110 (2013) 012302
At RHIC (Au+Au) and the LHC (Pb+Pb) hydro is successful
𝒗𝟐𝟐
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AMPT two-particle correlation function in p+p and p+Pb
G.L. Ma, AB, PLB 739 (2014) 209
𝒗𝟐𝟐
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In general:
𝑃𝐵(𝑛) – net baryon/proton/charge distribution
cumulant generating function
n-th derivative with respect to t (at 𝑡 = 0) gives 𝑐𝑛
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Lattice QCD
Cross over from hadron gas to sQGP at 𝑇 ≈ 200 MeV (1012 K)
Y.Aoki et al., Nature 443 (2006) 675
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More details
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𝑣3 in He3+Au
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PHENIX data vs models